JP3926702B2 - Electronic tuner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic tuner used for selecting a TV broadcasting station in TV, VTR, and CATV equipment.
[0002]
[Prior art]
In general, an electronic tuner is a device for selecting one of a number of signals transmitted from each TV broadcasting station and receiving a desired program.
[0003]
The electronic tuner will be described below with reference to FIG. FIG. 10 shows a block diagram of a general electronic tuner.
[0004]
As shown in FIG. 10, the received signal input from the RF-IN terminal of the channel selection unit is first selected only by the bandpass filter 101 (BPF (1)) linked to the tuning voltage from the power source 106, Thereafter, it enters the AMP 102 and is amplified. Subsequently, the amplified received signal is further selected by the band-pass filter 103 (BPF (2)) linked to the tuning voltage from the power source 106 and enters the mixer circuit 104 (MIX).
[0005]
The mixer circuit 104 is connected to a local oscillation circuit 105 (VCO) that can change the oscillation frequency by a tuning voltage from a power source 106. The local oscillation circuit 105 oscillates a local oscillation signal (LOCAL) linked to the tuning voltage and outputs it to the mixer circuit 104.
[0006]
The mixer circuit 104 performs frequency conversion by mixing the local oscillation signal with the received signal, and outputs it to the IF-OUT terminal.
[0007]
A signal output to the IF-OUT terminal is referred to as an IF signal. The frequency of the IF signal is determined by the difference between the frequency of the local oscillation signal and the frequency of the reception signal.
[0008]
Therefore, since the frequency of the local oscillation signal is changed in proportion to the desired signal input from the RF-IN terminal, the IF signal is always a constant frequency.
[0009]
As described above, since the frequency of the IF signal is always a constant frequency, only a specific broadcasting station can be selected and received.
[0010]
By the way, since the frequency band of VHF usually used as the frequency of a TV broadcasting station has a wide range, an electronic tuner having a circuit configuration in which reception is divided into two bands is adopted. The lower band of this frequency band is called the VHF Low band, and the upper band is called the VHF High band.
[0011]
Therefore, in the above electronic tuner, there is a control power line for each band. When receiving the VHF Low band, the VHF Low control power supply voltage becomes High, the VHF Low band circuit operates, and the VHF High band is When receiving, the voltage of the VHF High control power supply becomes High and the VHF High band circuit operates so that it is possible to receive frequencies in a wide band range of VHF.
[0012]
FIG. 11 is a block diagram of a circuit configuration immediately before the AMP unit shown in FIG.
[0013]
For example, in the electronic tuner shown in FIG. 10, the gain of the VHF High band is corrected using the circuit (gain correction circuit 17) shown in FIG.
[0014]
That is, in the gain correction circuit 17 shown in FIG. 11, when the voltage of the VHF High control power supply becomes High, the voltage passes through R1, and a voltage is generated on the cathode side of D1, so that D1 becomes conductive. At this time, since the AMP has some input capacitance, an equivalent circuit as shown in FIG. 12 is obtained.
[0015]
Here, if the value of L1 is set to an appropriate value, a filter is generated at L1 and Ci, and the low gain portion can be lifted. That is, it is possible to correct the frequency characteristics in the band (VHF High) to be flat by raising the low gain portion.
[0016]
As described above, the electronic tuner usually includes the above-described gain correction circuit in some form to improve the frequency characteristics of the VHF High band.
[0017]
Further, in the electronic tuner shown in FIG. 10, even in the VHF low band, the frequency characteristic is deteriorated, that is, the frequency characteristic is deteriorated due to the following IF interference.
[0018]
It is desirable that the IF signal output from the IF-OUT terminal of the electronic tuner is a signal only for the selected specific broadcasting station, but there is a risk that other interference signals may enter due to various reasons and the performance may deteriorate. .
[0019]
There is what is called IF interference as one that causes typical performance degradation. This is because the circuit in the electronic tuner is directly or indirectly connected to the RF-IN terminal when there is an interference signal of the same frequency as the IF signal. Is a disturbance that degrades the signal of the selected specific broadcast station that passes through and is output to the IF-OUT terminal. This IF interference is more likely to occur at lower frequencies, that is, frequencies closer to the IF signal (VHF Low band).
[0020]
In order to improve IF interference, Japanese Utility Model Publication No. 4-105723, for example, discloses a technique in which one or more stages of trap circuits (variable trap circuits) are provided in an electronic tuner.
[0021]
[Problems to be solved by the invention]
However, as described above, since the electronic tuner is already provided with a gain correction circuit for improving the frequency characteristics in the VHF High band, a trap circuit for improving IF interference is provided in the VHF Low band. However, there arises a problem that the circuit configuration becomes large and the price of the apparatus increases. In particular, in order to appropriately improve IF interference, it is necessary to increase the number of stages of the trap circuit. In such a case, there is a problem that the circuit configuration is further enlarged and the price information of the apparatus is caused.
[0022]
Accordingly, the present invention has been made in view of the above-described problems, and an object of the present invention is to improve frequency characteristics in the VHF High band and the VHF Low band while minimizing an increase in the price of the device. It is to provide an electronic tuner that can be used.
[0023]
[Means for Solving the Problems]
In order to solve the above-described problems, an electronic tuner of the present invention includes an amplification circuit that amplifies a received signal and an amplification circuit that receives VHF by switching between two frequency bands, a VHF High band and a VHF Low band. A mixing circuit that mixes a local oscillation signal with the received signal and converts the frequency, and a coil is provided between at least one of the input unit, the output unit, and the input unit of the mixing circuit and the ground. The switching element is connected in series so that the switching element is on the ground side, and a capacitor is connected between the connection portion of the coil and the switching element and the ground, and the switching element is switched to the VHF High band. When turned on, it becomes conductive, and when switched to the VHF Low band, it becomes non-conductive. ing.
[0024]
According to the above configuration, when the switching element is switched to the VHF High band, any of the coil, the input capacitance of the amplifier circuit, the output capacitance, or the input capacitance of the mixing circuit is set. By forming a gain correction circuit for improving the deterioration of the frequency characteristics of the received signal of the VHF High band with the heel, and the switching element becomes non-conductive when switched to the VHF Low band, the coil With the above capacitor, a trap circuit for improving the deterioration of the frequency characteristics of the VHF low band received signal can be formed.
[0025]
As described above, a circuit (gain correction circuit, trap circuit) for improving the deterioration of the frequency characteristics of the reception signal of each band is configured with a common component (coil) and is used by switching with a switching element. In this case, the circuit scale in the apparatus can be reduced as compared with the case where the gain correction circuit and the trap circuit are configured separately.
[0026]
Moreover, since the trap circuit is configured by providing only one coil with respect to the gain correction circuit, the gain correction circuit can be added to the apparatus with a minimum cost increase (about one capacitor). In addition, a trap circuit can be added.
[0027]
From the above, according to the electronic tuner having the above configuration, it is possible to improve the frequency characteristics in the VHF High band and the VHF Low band while minimizing the increase in the price of the device.
[0028]
In addition, a power source for generating a band switching control voltage for switching VHF between the VHF High band and the VHF Low band is provided, and the switching element is turned on / off by applying the band switching control voltage. It may be made to become.
[0029]
In this case, since the band switching control voltage used for switching between the VHF High band and the VHF Low band is applied to the switching element, the conduction / non-conduction state is switched. There is no need to separately generate a voltage for switching between the conductive and non-conductive states.
[0030]
As a result, an existing power source (a power source that generates a band switching control voltage) can be used as the voltage necessary for switching the conduction / non-conduction state of the switching element. Lower prices can be achieved.
[0031]
The switching element may be composed of a diode or a transistor.
[0032]
In order to solve the above problems, an electronic tuner of the present invention is an electronic tuner that receives VHF by switching between two frequency bands, a VHF High band and a VHF Low band. The first improvement unit for improving the degradation, the second improvement unit for improving the degradation of the frequency characteristics of the received VHF Low band signal, and the first improvement unit operates at the time of receiving the VHF High band signal, and VHF Low A switching unit that switches between the first improvement unit and the second improvement unit is provided so that the second improvement unit operates when a band signal is received.
[0033]
According to the above configuration, the first improvement unit and the second improvement unit operate so that the first improvement unit operates when a VHF High band signal is received, and the second improvement unit operates when a VHF Low band signal is received. Since it has a switching unit that switches between the VHF signal and the VHF signal, it improves the deterioration of the frequency characteristics of the received signal in each band in conjunction with switching between the VHF High band and the VHF Low band when receiving a VHF signal. It becomes like this.
[0034]
As described above, if the improvement of the deterioration of the frequency characteristic of the reception signal of the VHF High band and the improvement of the deterioration of the frequency characteristic of the reception signal of the VHF Low band are switched and performed, the frequency characteristic of the reception signal of each band is changed. Compared to the case where improvement of deterioration is realized by independent circuits, circuit components can be shared, and the circuit scale can be reduced and the configuration can be simplified.
[0035]
Therefore, even when a circuit is added to improve the frequency characteristics in the VHF High band and the VHF Low band, it is possible to minimize the increase in the price of the device.
[0036]
In addition, a power source for generating a band switching control voltage for switching the VHF between the VHF High band and the VHF Low band is provided, and the switching unit is configured to apply the band switching control voltage to the first improvement unit. You may make it switch to a 2nd improvement part.
[0037]
In this case, the switching operation of the switching unit between the first improvement unit and the second improvement unit is applied to the switching unit with a band switching control voltage used to switch between the VHF High band and the VHF Low band. Therefore, it is not necessary to separately generate a voltage for controlling the switching operation of the switching unit.
[0038]
Thereby, it is not necessary to provide a separate voltage generator for generating a voltage necessary for controlling the switching operation of the switching unit, and an existing power source can be used. Lower prices can be achieved.
[0039]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described as follows.
[0040]
An electronic tuner according to the present embodiment will be described below with reference to FIGS. FIG. 1 shows a block diagram of the electronic tuner, FIG. 2 shows a block diagram of a circuit for improving frequency characteristics provided in the electronic tuner shown in FIG. 1, and FIG. 3 shows a block circuit shown in FIG. The equivalent circuit diagram of is shown.
[0041]
The electronic tuner according to the present embodiment is an electronic tuner that receives VHF by switching to two frequency bands by means of a band switching control voltage, and as shown in FIG. 1, between the RF-IN terminal and the IF-OUT terminal. In addition, a bandpass filter 1 (BPF (1)), an amplifier circuit 2 (AMP), a bandpass filter 3 (BPF (2)), and a mixer circuit 4 (MIX) are connected in series.
[0042]
Connected to the mixer circuit (mixing circuit) 4 is a local oscillation circuit 5 (VCO) that generates a local oscillation signal (LOCAL) linked to a tuning voltage from a power supply 6 and outputs the local oscillation signal (LOCAL). .
[0043]
A characteristic improvement circuit 7 for improving the frequency characteristic of the received signal is connected between the bandpass filter 1 and the amplifier circuit 2. Further, a characteristic improvement circuit 7 for improving the frequency characteristic of the received signal is also provided between the amplifier circuit 2 and the bandpass filter 3 and between the bandpass filter 3 and the mixer circuit 4. Details of the characteristic improvement circuit 7 will be described later.
[0044]
The power source 6 applies a tuning voltage to the bandpass filters 1 and 3 in addition to the local oscillation circuit 5. The power source 6 applies the above-described band switching control voltage to the band-pass filters 1 and 3 and the characteristic improvement circuit 7. Therefore, the power source 6 has both functions of tuning voltage generation means and band switching control voltage generation means.
[0045]
The operation of the electronic tuner having the above configuration will be described below.
[0046]
As shown in FIG. 1, the received signal input from the RF-IN terminal of the electronic tuner serving as the channel selection unit is first selected only by the bandpass filter 1 linked to the tuning voltage from the power source 6, and then, It enters the amplifier circuit 2 and is amplified. Subsequently, the amplified received signal is further further selected by the band-pass filter 3 interlocked with the tuning voltage from the power source 6 and enters the mixer circuit 4.
[0047]
In addition to the reception signal, the mixer circuit 4 receives a local oscillation signal from the local oscillation circuit 5 and performs frequency conversion by mixing the local oscillation signal with the reception signal. And output to the IF-OUT terminal.
[0048]
A signal output to the IF-OUT terminal is referred to as an IF signal. The frequency of the IF signal is determined by the difference between the frequency of the local oscillation signal and the frequency of the reception signal.
[0049]
Therefore, since the frequency of the local oscillation signal is changed in proportion to the desired signal input from the RF-IN terminal, the IF signal is always a constant frequency.
[0050]
As described above, since the frequency of the IF signal is always a constant frequency, only a specific broadcasting station can be selected and received.
[0051]
By the way, since the frequency band of VHF usually used as the frequency of a TV broadcasting station has a wide range, an electronic tuner having a circuit configuration in which reception is divided into two bands is adopted. The lower band of this frequency band is called the VHF Low band, and the upper band is called the VHF High band.
[0052]
Therefore, in the electronic tuner, by applying a band switching control voltage from the power source 6 to the bandpass filters 1 and 3, reception of signals in the VHF High band and the VHF Low band is switched. . For example, when the band switching control voltage is at a high level, the bandpass filters 1 and 3 constitute a circuit for receiving a VHF High band signal. When the band switching control voltage is at a low level, the bandpass filters 1 and 3 2 constitutes a circuit for receiving a VHF Low band signal.
[0053]
The band switching control voltage is controlled based on a control signal (control signal corresponding to a channel generated when the user performs a channel operation) input to the power supply 6.
[0054]
By the way, there is a problem that the VHF High band received signal has a problem that the gain is reduced and the frequency characteristic of the signal is deteriorated, and the VHF Low band received signal is affected by the IF interference and the frequency characteristic of the signal is deteriorated. Problems arise.
[0055]
Therefore, as described above, in order to improve the deterioration of the frequency characteristic of the received signal in each band, the characteristic improvement circuit 7 is provided as a frequency characteristic improvement means.
[0056]
Since the degradation of the frequency characteristics occurs between the band pass filter 1 and the amplifier circuit 2, between the amplification circuit 2 and the band pass filter 3, and between the band pass filter 3 and the mixer circuit 4, the degradation of the frequency characteristics at all locations. However, it is sufficient to improve the deterioration of the frequency characteristic at least at one place.
[0057]
Hereinafter, a specific configuration and operation of the characteristic improvement circuit 7 will be described.
[0058]
First, the characteristic improvement circuit 7 provided between the bandpass filter 1 and the amplifier circuit 2 will be described below with reference to FIG. That is, an example in which the characteristic improving circuit 7 is provided at the input portion of the amplifier circuit 2 will be described.
[0059]
2 shows a specific circuit diagram of the characteristic improvement circuit 7, FIG. 3 shows an equivalent circuit when receiving a signal of the VHF High band of the circuit shown in FIG. 2, and FIG. The equivalent circuit when the VHF Low band signal of the circuit shown in FIG.
[0060]
In the characteristic improvement circuit 7 shown in FIG. 2, a coil L1 and a diode D1 as a switching element (switching unit) are connected in series between the input part of the amplifier circuit 2 and the ground. A capacitor C1 is connected between the connection portion with D1 and the ground. That is, the diode D1 and the capacitor C1 are connected in parallel.
[0061]
The diode D1 is connected to a VHF High control power source via a resistor R1. That is, the diode D1 is turned on / off by the voltage applied by the VHF High control power supply. This VHF High control power supply is the power supply 6 of the electronic tuner shown in FIG. 1, and the generated voltage is a band switching control voltage.
[0062]
Here, when the VHF High control voltage is at a high level, the bandpass filters 1 and 3 are switched to a circuit that receives a VHF High band signal, and when the VHF High control voltage is at a low level, the bandpass filters 1 and 3 are switched to a circuit that receives a VHF Low band signal. Shall.
[0063]
Therefore, in the circuit of FIG. 2, when the voltage from the VHF High control power supply is at a high level, the circuit is switched to a circuit that receives a VHF High band signal, and the diode D1, which is a switching element, becomes conductive. In this case, the capacitor C1 does not affect the circuit and constitutes a gain correction circuit (an input capacitance Ci included in the coil L1 and the amplifier circuit) as shown in FIG. 3, and serves as a gain correction circuit (first improvement unit). Operate. This gain correction circuit is the same as the gain correction circuit shown in FIG. 12 described in the section of the prior art, and details thereof are omitted.
[0064]
On the other hand, in the circuit shown in FIG. 2, when the voltage from the VHF High control power supply is at a low level, the circuit is switched to a circuit that receives a VHF Low band signal. However, since no voltage is applied to the diode D1, the diode D1 Becomes non-conductive. In this case, it is considered that the diode D1 is not equivalent, and a circuit as shown in FIG. 4 is obtained.
[0065]
In the circuit shown in FIG. 4, when the length of the coil L1 and the capacitance of the capacitor C1 are set to appropriate values, a trap circuit (second improvement unit) corresponding to the frequency of the IF signal can be formed. That is, the same effect as that obtained by adding a trap circuit for improving IF interference can be obtained.
[0066]
Further, since the output unit of the amplifier circuit 2 has the same capacitance as the input unit, that is, the output capacitance, a characteristic improvement circuit 7 is provided between the amplifier circuit 2 and the band pass filter 3 as shown in FIG. However, the same effect as described above can be obtained.
[0067]
That is, in the circuit shown in FIG. 5, when the voltage from the VHF High control power supply is at a high level, the circuit is switched to a circuit that receives a VHF High band signal, and the diode D1, which is a switching element, becomes conductive. In this case, the capacitor C1 does not affect the circuit, constitutes a gain correction circuit as shown in FIG. 3, and operates as a gain correction circuit. However, in this case, the capacitor Ci is not formed at the input portion of the amplifier circuit 2 as shown in FIG. 3, but the capacitor Ci is formed at the output portion.
[0068]
On the other hand, in the circuit shown in FIG. 5, when the voltage from the VHF High control power supply is at a low level, the circuit is switched to a circuit that receives a VHF Low band signal, but no voltage is applied to the diode D1, and therefore the diode D1 Becomes non-conductive. In this case, it is considered that the diode D1 is not equivalent, and a circuit as shown in FIG. 4 is obtained.
[0069]
In this case, when the length of the coil L1 and the capacitance of the capacitor C1 are set to appropriate values, a trap circuit corresponding to the frequency of the IF signal can be formed. That is, the same effect as that obtained by adding a trap circuit for improving IF interference can be obtained.
[0070]
In addition, since the input capacity of the mixer circuit 4 also exists in the same manner as the input section of the amplifier circuit 2, the characteristic improvement circuit 7 is provided between the bandpass filter 3 and the mixer circuit 4 as shown in FIG. Even if it provides, the effect similar to the above can be acquired.
[0071]
That is, in the circuit shown in FIG. 6, when the voltage from the VHF High control power supply is at a high level, the circuit is switched to a circuit that receives a VHF High band signal, and the diode D1, which is a switching element, becomes conductive. In this case, the capacitor C1 does not affect the circuit, constitutes a gain correction circuit as shown in FIG. 3, and operates as a gain correction circuit. However, in this case, the capacitor Ci is not formed at the input portion of the amplifier circuit 2 as shown in FIG. 3, but the capacitor Ci is formed at the input portion of the mixer circuit 4.
[0072]
On the other hand, in the circuit shown in FIG. 6, when the voltage from the VHF High control power supply is at a low level, the circuit is switched to a circuit that receives a VHF Low band signal, but no voltage is applied to the diode D1, and therefore the diode D1 Becomes non-conductive. In this case, it is considered that the diode D1 is not equivalent, and a circuit as shown in FIG. 4 is obtained.
[0073]
In this case, when the length of the coil L1 and the capacitance of the capacitor C1 are set to appropriate values, a trap circuit corresponding to the frequency of the IF signal can be formed. That is, the same effect as that obtained by adding a trap circuit for improving IF interference can be obtained.
[0074]
Similar effects can be obtained even when a transistor Tr1 is used as a switching element instead of the diode D1 as shown in FIGS.
[0075]
7 shows a characteristic improvement circuit 17 in which the diode D1 is replaced with the transistor Tr1 in the circuit shown in FIG. 2, and FIG. 8 shows a characteristic improvement circuit 17 in which the diode D1 is replaced with the transistor Tr1 in the circuit shown in FIG. FIG. 9 shows a characteristic improvement circuit 17 in which the diode D1 is replaced with the transistor Tr1 in the circuit shown in FIG.
[0076]
Thus, in the characteristic improving circuit 17, even if the diode D1 is replaced with the transistor Tr1, the basic operation is almost the same. That is, the diode D1 operates on the potential difference between the cathode and the anode, whereas the transistor Tr1 performs switching between the collector and the emitter by the potential difference between the base and the emitter.
[0077]
In the circuit shown in FIG. 7, when the voltage from the VHF High control power supply is at a high level as described above, the circuit is switched to a circuit that receives a VHF High band signal, and the collector-emitter of the transistor Tr1 as a switching element is in a conductive state. It becomes. In this case, the capacitor C1 does not affect the circuit, constitutes a gain correction circuit (an input capacitance Ci included in the coil L1 and the amplifier circuit) as shown in FIG. 3, and operates as a gain correction circuit.
[0078]
On the other hand, in the circuit shown in FIG. 7, when the voltage from the VHF High control power supply is at a low level, the circuit is switched to a circuit that receives a VHF Low band signal, but the collector-emitter of the transistor Tr1 becomes non-conductive. . In this case, the transistor Tr1 is equivalent to not being equivalent, and the circuit as shown in FIG. 4 is considered.
[0079]
In the circuit shown in FIG. 4, when the length of the coil L1 and the capacitance of the capacitor C1 are set to appropriate values, a trap circuit corresponding to the frequency of the IF signal can be formed. That is, the same effect as that obtained by adding a trap circuit for improving IF interference can be obtained.
[0080]
In the circuit shown in FIG. 8, when the voltage from the VHF High control power supply is high, the circuit is switched to a circuit that receives a VHF High band signal, and the collector-emitter of the transistor Tr1 as a switching element is electrically connected. It becomes a state. In this case, the capacitor C1 does not affect the circuit, constitutes a gain correction circuit as shown in FIG. 3, and operates as a gain correction circuit. In this case, however, the capacitor Ci is not formed at the input portion of the amplifier circuit 2 as shown in FIG. 3, but the capacitor Ci is formed at the output portion.
[0081]
On the other hand, in the circuit shown in FIG. 8, when the voltage from the VHF High control power supply is at a low level, the circuit is switched to a circuit that receives a VHF Low band signal, but the collector-emitter of the transistor Tr1 becomes non-conductive. . In this case, the transistor Tr1 is equivalent to the absence, and it is considered that a circuit as shown in FIG. 4 is obtained.
[0082]
In this case, when the length of the coil L1 and the capacitance of the capacitor C1 are set to appropriate values, a trap circuit corresponding to the frequency of the IF signal can be formed. That is, the same effect as that obtained by adding a trap circuit for improving IF interference can be obtained.
[0083]
In the circuit shown in FIG. 9, when the voltage from the VHF High control power supply is at a high level, the circuit is switched to a circuit that receives a VHF High band signal, and the collector-emitter of the transistor Tr1 as a switching element is electrically connected. It becomes a state. In this case, the capacitor C1 does not affect the circuit, constitutes a gain correction circuit as shown in FIG. 3, and operates as a gain correction circuit. However, in this case, the capacitor Ci is not formed at the input portion of the amplifier circuit 2 as shown in FIG. 3, but the capacitor Ci is formed at the input portion of the mixer circuit 4.
[0084]
On the other hand, in the circuit shown in FIG. 9, when the voltage from the VHF High control power supply is at a low level, the circuit is switched to a circuit that receives a VHF Low band signal, but the collector-emitter of the transistor Tr1 becomes non-conductive. . In this case, the transistor Tr1 is equivalent to the absence, and it is considered that a circuit as shown in FIG. 4 is obtained.
[0085]
In this case, when the length of the coil L1 and the capacitance of the capacitor C1 are set to appropriate values, a trap circuit corresponding to the frequency of the IF signal can be formed. That is, the same effect as that obtained by adding a trap circuit for improving IF interference can be obtained.
[0086]
As described above, by providing the characteristic improving circuit 7 or 17 in the electronic tuner, the frequency characteristic of the received VHF High band signal is prevented from being deteriorated, and the frequency characteristic of the received VHF Low band signal is deteriorated. Can be prevented.
[0087]
Moreover, the trap circuit for improving the deterioration of the frequency characteristic of the VHF low band signal can be realized by providing only one capacitor in the gain correction circuit for improving the deterioration of the frequency characteristic of the VHF high band signal. Furthermore, since the switching between the trap circuit and the gain correction circuit is performed by the band switching control voltage, no special switching circuit is required.
[0088]
This eliminates the need for the trap circuit to have a circuit configuration different from that of the gain correction circuit, so that the frequency characteristics of the VHF High band and VHF Low band signals can be improved without increasing the circuit scale of the apparatus. .
[0089]
Further, since it is only necessary to provide a single capacitor in the gain correction circuit instead of providing a trap circuit separately, it is possible to simply suppress an increase in the price of the apparatus as compared with the case of adding a trap circuit.
[0090]
In the present embodiment, as shown in FIG. 1, the characteristic improvement circuits 7 and 17 are connected between the bandpass filter 1 and the amplification circuit 2, between the amplification circuit 2 and the bandpass filter 3, and between the bandpass filter 3 and Although the example provided in all between the mixer circuits 4 has been described, the frequency characteristics of both the VHF High band signal and the VHF Low band signal can be improved by providing at least one location.
[0091]
Therefore, when the characteristic improvement circuits 7 and 17 are provided one by one, the configuration is as follows.
[0092]
In other words, the electronic tuner of the present invention is characterized in that VHF is received in two bands, and the coil L1 and the switching diode D1 are connected between the input portion of the RF amplifier (amplifier circuit 2) and the ground. Are connected in series, a capacitor C1 is connected in parallel to the diode D1, and the diode D1 is switched at a control voltage (band switching control voltage) for switching the VHF band. This configuration corresponds to the circuit configuration shown in FIG.
[0093]
The electronic tuner according to the present invention is an electronic tuner characterized in that VHF is received in two bands, and a coil L1 and a switching diode D1 are provided between the output portion of the RF amplifier (amplifier circuit 2) and the ground. Are connected in series, a capacitor C1 is connected in parallel to the diode D1, and the diode D1 is switched at a control voltage (band switching control voltage) for switching the VHF band. This configuration corresponds to the circuit configuration shown in FIG.
[0094]
Furthermore, the electronic tuner of the present invention is characterized in that VHF is received in two bands, and a coil L1 and a switching diode D1 are connected in series between the input portion of the mixer circuit 4 and the ground. A capacitor C1 is connected in parallel to the diode D1, and the diode D1 is switched by a control voltage (band switching control voltage) for switching the VHF band. This configuration corresponds to the circuit configuration shown in FIG.
[0095]
The electronic tuner of the present invention is characterized in that VHF is received in two bands, and the coil L1 and the switching transistor Tr1 are connected between the input part of the RF amplifier (amplifying circuit 2) and the ground. An emitter-collector is connected in series, a capacitor C1 is connected between the emitter and collector of the transistor Tr1, and a control voltage (band switching control voltage) for switching the VHF band is applied to the base of the transistor Tr1, The transistor Tr1 is turned on / off by a control voltage. This configuration corresponds to the circuit configuration shown in FIG.
[0096]
The electronic tuner according to the present invention is characterized in that VHF is received in two bands, and the coil and the emitter of the switching transistor Tr1 are connected between the output portion of the RF amplifier (amplifier circuit 2) and the ground. A collector is connected in series, a capacitor C1 is connected between the emitter and collector of the transistor Tr1, and a control voltage (band switching control voltage) for switching the VHF band is applied to the base of the transistor Tr1 The transistor Tr1 is turned on / off by voltage. This configuration corresponds to the circuit configuration shown in FIG.
[0097]
The electronic tuner of the present invention is characterized in that VHF is received in two bands, and the coil L1 and the emitter-collector of the switching transistor Tr1 are connected between the input part of the mixer circuit 4 and the ground. Connected in series, a capacitor C1 is connected between the emitter and collector of the transistor Tr1, and a control voltage (band switching control voltage) for switching the VHF band is applied to the base of the transistor Tr1. The transistor Tr1 is turned on / off. This configuration corresponds to the circuit configuration shown in FIG.
[0098]
Also, the characteristic improvement circuits 7 and 17 can be used in combination. For example, the electronic tuner may be configured by using the characteristic improvement circuit 7 shown in FIG. 2, the characteristic improvement circuit 7 shown in FIG. 5, and the characteristic improvement circuit 17 shown in FIG. Similarly, the electronic tuner may be configured using the characteristic improvement circuit 7 shown in FIG. 2, the characteristic improvement circuit 17 shown in FIG. 8, and the characteristic improvement circuit 7 shown in FIG. Further, the electronic tuner may be configured by using the characteristic improvement circuit 7 shown in FIG. 2, the characteristic improvement circuit 17 shown in FIG. 8, and the characteristic improvement circuit 17 shown in FIG. Further, the electronic tuner may be configured using the characteristic improving circuit 17 shown in FIG. 7, the characteristic improving circuit 7 shown in FIG. 5, and the characteristic improving circuit 7 shown in FIG. Further, the electronic tuner may be configured by using the characteristic improvement circuit 17 shown in FIG. 7, the characteristic improvement circuit 7 shown in FIG. 5, and the characteristic improvement circuit 17 shown in FIG. Further, the electronic tuner may be configured by using the characteristic improvement circuit 17 shown in FIG. 7, the characteristic improvement circuit 17 shown in FIG. 8, and the characteristic improvement circuit 7 shown in FIG.
[0099]
As described above, if the electronic tuner of the present invention is used for a receiver of a device such as a TV, a VTR, or a CATV, it is possible to provide a device with improved performance while suppressing the price.
[0100]
In this embodiment, an example in which a diode and a transistor are used as switching elements has been described. However, a diode is usually used because the use of a diode can be made cheaper than the use of a transistor.
[0101]
However, when the VHF High control voltage is 0 V, no voltage is applied to the diode. Therefore, when a strong electric field signal is input in this state, the operation becomes unstable. Therefore, in this case, a transistor is used as the switching element. However, since a problem does not occur unless the electric field is very strong, a diode is usually used as a switching element.
[0102]
【The invention's effect】
As described above, the electronic tuner of the present invention is an electronic tuner that receives VHF by switching between two frequency bands, the VHF High band and the VHF Low band, and an amplification circuit that amplifies the reception signal and the amplified reception signal. A mixing circuit that mixes the local oscillation signal and converts the frequency, and a coil and a switching element are provided between at least one of the input unit, the output unit, and the input unit of the mixing circuit and the ground. The switching element is connected in series so as to be on the ground side, and a capacitor is connected between the connection portion of the coil and the switching element and the ground, and when the switching element is switched to the VHF High band, It is configured to be in a non-conducting state when it is in a conducting state and switched to the VHF Low band.
[0103]
Therefore, when the switching element is switched to the VHF High band, the switching element becomes conductive, so that the coil and the input capacitance of the amplifier circuit, the output capacitance, or the input capacitance of the mixing circuit can be changed to VHF. A gain correction circuit for improving the deterioration of the frequency characteristics of the received signal in the high band is formed, and when the switching element is switched to the VHF low band, the coil and the capacitor Thus, it is possible to form a trap circuit for improving the deterioration of the frequency characteristics of the received signal in the VHF low band.
[0104]
As described above, a circuit (gain correction circuit, trap circuit) for improving the deterioration of the frequency characteristics of the reception signal of each band is configured with a common component (coil) and is used by switching with a switching element. In this case, the circuit scale in the apparatus can be reduced as compared with the case where the gain correction circuit and the trap circuit are configured separately.
[0105]
Moreover, since the trap circuit is configured by providing only one coil with respect to the gain correction circuit, the gain correction circuit can be added to the apparatus with a minimum cost increase (about one capacitor). In addition, a trap circuit can be added.
[0106]
From the above, according to the electronic tuner having the above-described configuration, it is possible to improve the frequency characteristics in the VHF High band and the VHF Low band while minimizing the increase in the price of the device.
[0107]
In addition, a power source for generating a band switching control voltage for switching VHF between the VHF High band and the VHF Low band is provided, and the switching element is turned on / off by applying the band switching control voltage. It may be made to become.
[0108]
In this case, since the band switching control voltage used for switching between the VHF High band and the VHF Low band is applied to the switching element, the conduction / non-conduction state is switched. There is no need to separately generate a voltage for switching between the conductive and non-conductive states.
[0109]
As a result, an existing power source (a power source that generates a band switching control voltage) can be used as the voltage necessary for switching the conduction / non-conduction state of the switching element, which further simplifies the circuit scale of the device and There is an effect that the price can be reduced.
[0110]
As described above, the electronic tuner of the present invention improves the deterioration of the frequency characteristics of the received VHF High band signal in the electronic tuner that receives VHF by switching between two frequency bands, the VHF High band and the VHF Low band. The first improvement unit, the second improvement unit that improves the degradation of the frequency characteristics of the received VHF Low band signal, and the first improvement unit operates when receiving the VHF High band signal, and receives the VHF Low band signal. Sometimes, the second improvement unit is configured to include a switching unit that switches between the first improvement unit and the second improvement unit so that the second improvement unit operates.
[0111]
Therefore, the first improvement unit operates when the VHF High band signal is received, and the first improvement unit and the second improvement unit are switched so that the second improvement unit operates when the VHF Low band signal is received. Since the switching unit is provided, when receiving a VHF signal, the deterioration of the frequency characteristics of the received signal of each band is improved in conjunction with the switching between the VHF High band and the VHF Low band.
[0112]
As described above, if the improvement of the deterioration of the frequency characteristic of the reception signal of the VHF High band and the improvement of the deterioration of the frequency characteristic of the reception signal of the VHF Low band are switched and performed, the frequency characteristic of the reception signal of each band is changed. Compared to the case where improvement of deterioration is realized by independent circuits, circuit components can be shared, and the circuit scale can be reduced and the configuration can be simplified.
[0113]
Therefore, even when a circuit is added to improve the frequency characteristics in the VHF High band and the VHF Low band, it is possible to produce an effect that the price increase of the device can be minimized.
[0114]
In addition, a power source for generating a band switching control voltage for switching the VHF between the VHF High band and the VHF Low band is provided, and the switching unit is configured to apply the band switching control voltage to the first improvement unit. You may make it switch to a 2nd improvement part.
[0115]
In this case, the switching operation of the switching unit between the first improvement unit and the second improvement unit is applied to the switching unit with a band switching control voltage used to switch between the VHF High band and the VHF Low band. Therefore, it is not necessary to separately generate a voltage for controlling the switching operation of the switching unit.
[0116]
Thereby, it is not necessary to provide a separate voltage generation unit for generating a voltage necessary for controlling the switching operation of the switching unit, and an existing power source can be used. There is an effect that the price can be reduced.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram of an electronic tuner according to an embodiment of the present invention.
FIG. 2 is a block diagram of a characteristic improving circuit that is connected to the input section of the amplifier circuit of the electronic tuner shown in FIG. 1 and uses a diode as a switching element;
3 is an equivalent circuit diagram for the gain correction circuit of the characteristic improvement circuit shown in FIG. 2;
4 is an equivalent circuit diagram for the trap circuit of the characteristic improvement circuit shown in FIG. 2;
5 is a block diagram of a characteristic improving circuit that is connected to the output section of the amplifier circuit of the electronic tuner shown in FIG. 1 and uses a diode as a switching element. FIG.
6 is a block diagram of a characteristic improving circuit that is connected to the input portion of the mixer circuit of the electronic tuner shown in FIG. 1 and uses a diode as a switching element. FIG.
7 is a block diagram of a characteristic improving circuit that is connected to the input portion of the amplifier circuit of the electronic tuner shown in FIG. 1 and uses a transistor as a switching element. FIG.
8 is a block diagram of a characteristic improving circuit that is connected to the output section of the amplifier circuit of the electronic tuner shown in FIG. 1 and uses a transistor as a switching element.
9 is a block diagram of a characteristic improving circuit that is connected to the input portion of the mixer circuit of the electronic tuner shown in FIG. 1 and uses a transistor as a switching element.
FIG. 10 is a general block diagram of a conventional electronic tuner.
11 is a block diagram of a gain correction circuit provided in the electronic tuner shown in FIG.
12 is an equivalent circuit of the gain correction circuit shown in FIG.
[Explanation of symbols]
1 Bandpass filter
2 Amplifier circuit
3 Bandpass filter
4 Mixer circuit (mixing circuit)
5 Local oscillator circuit
6 Power supply
7 Characteristic improvement circuit (1st improvement part, 2nd improvement part)
17 Characteristic improvement circuit (first improvement part, second improvement part)
C1 capacitor
D1 diode (switching element, switching part)
L1 coil
R1 resistance
Tr1 transistor (switching element, switching part)

Claims (6)

In an electronic tuner that receives VHF by switching to two frequency bands, VHF High band and VHF Low band,
An amplification circuit that amplifies the reception signal, and a mixing circuit that mixes the local oscillation signal with the amplified reception signal and converts the frequency,
Between the input part of the amplifier circuit, the output part, and the input part of the mixing circuit and the ground, the coil and the switching element are connected in series so that the switching element is on the ground side, A capacitor is connected between the connection part of the coil and the switching element and the ground,
The switching element becomes conductive when switched to the VHF High band, and the coil operates to correct the gain of the VHF High band signal,
The switching element, when switched to the VHF Low band, Ri Do nonconductive, the coil is an electronic tuner which is characterized that you operation to trap unwanted signal of the signal of the VHF Low band. A power supply for generating a band switching control voltage for switching VHF between the VHF High band and the VHF Low band is provided.
2. The electronic tuner according to claim 1, wherein the switching element is turned on and off when the band switching control voltage is applied.   The electronic tuner according to claim 1, wherein the switching element is a diode.   The electronic tuner according to claim 1, wherein the switching element is a transistor. In an electronic tuner that receives VHF by switching to two frequency bands, VHF High band and VHF Low band,
A first improvement unit for correcting the gain of the received VHF High band signal;
A second improvement unit for trapping an unnecessary signal of the received VHF Low band signal;
A switching unit that switches between the first improvement unit and the second improvement unit so that the first improvement unit operates when a VHF High band signal is received, and the second improvement unit operates when a VHF Low band signal is received. equipped with a door,
The first improvement unit includes a coil connected in series with the switching unit,
The second improvement unit is configured by a capacitor and the coil connected in parallel to the switching unit with respect to the coil,
During signal reception the VHF High band, an input capacitance or output capacitance of the amplifier circuit for amplifying a signal of the VHF High band, by the said coil said first improved portion is configured,
An electronic tuner characterized in that, when receiving a VHF Low band signal, the capacitor and the coil constitute the second improvement unit . A power supply for generating a band switching control voltage for switching VHF between the VHF High band and the VHF Low band is provided.
6. The electronic tuner according to claim 5, wherein the switching unit switches between the first improvement unit and the second improvement unit by applying the band switching control voltage.

Images